KR20130050094A - System for wireless power transmission and reception capable of multi charge - Google Patents

Abstract

PURPOSE: A wireless power transceiving system capable of performing multi-charge is provided to retransmit surplus power in a wireless high power receiver to a wireless low power receiver, thereby being easily applied in many wireless power receivers. CONSTITUTION: A wireless power transmitting device(100) generates a first wireless power signal having a first resonant frequency band when supplying commercial power and transmits the first wireless power signal to outside through a magnetic resonance method. A first power receiving device(200) receives the first wireless power signal through the magnetic resonance method, converts the first wireless power signal into use power, converts a surplus wireless power signal which is not converted into the use power into a second wireless power signal and retransmits the surplus wireless power signal to outside through the magnetic resonance method. A second wireless power receiving device(300) receives the second wireless power signal through the magnetic resonance method and converts the second wireless power signal into the use power. [Reference numerals] (120) Power supply unit; (131) Wireless power signal generating unit; (132,233) Wireless power signal transmitting unit; (133,234) Wireless power signal detecting unit; (140,240) Control unit; (221,321) Wireless power signal receiving unit; (222,322) Power converting unit; (223) Power detecting unit; (230,330) Power supply unit; (231) Wireless power signal distribution unit; (232) Wireless power signal converting unit; (AA) AC power

Description

System for wireless power transmission and reception capable of multi charge

The present invention relates to a wireless power transmission and reception system for transmitting power wirelessly to be used as a driving power source or a battery charging. More particularly, the wireless power transmission and reception using a magnetic resonance method is applicable to various wireless power receivers. The present invention relates to a wireless power transmission / reception system capable of multi charging.

Portable electronic devices such as mobile communication terminals, PDAs, PMPs, notebook computers, and the like, are commonly used as rechargeable batteries (batteries) that can be recharged with a driving power source to increase user convenience. By using such a battery as a driving power source, the user can be free from a wired environment for power supply, which makes the product more convenient to use.

The battery stores energy by charging with an external power source. In order to charge such a battery, a separate wired charging device that supplies household commercial power with the available rated power required for the battery is mainly used.

In the wired charging method, a method in which a terminal of a charging device and a terminal of a battery are electrically connected by physically contacting each other is mainly used.

However, in the above-described method, since the electrical coupling is made in a manner in which the terminals are physically coupled to each other, physical wear may occur and connection reliability may be deteriorated. There is a problem that the contact state easily becomes poor. In addition, in an environment with high moisture and humidity, problems such as an electric short-circuit accident or a loss of charged energy may occur.

In order to solve the problem of the contact charging method is disclosed a contactless charging system in which the terminal of the charging device and the battery is physically contactless, the contactless charging is known as the magnetic flux of the magnetic field in the primary coil In this case, the charging method uses a phenomenon in which power is induced to the secondary coil by a magnetic field that changes with time in an adjacent secondary coil.

Conventional contactless charging method has a wireless pad with a built-in primary coil for induction electromotive force, by a method of seating a portable electronic device equipped with a secondary coil means corresponding to the primary coil on the wireless pad Was implemented.

However, the above-described method has a coil structure for generating induced electromotive force, the transmitting side and the receiving side of the power should be adjacent to a short distance of a few mm, and the direction between the transmitting side and the receiving side exists and is aligned. As a result, the efficiency of power transmission changes drastically, and heat generation is disadvantageous.

Recently, a study on a magnetic resonance method that can transfer power in the form of magnetic energy by concentrating energy at a specific resonant frequency in a more advanced manner that can send a relatively large amount of power up to several meters, compared to the conventional contactless charging method It is actively underway. However, such a magnetic resonance method has a problem in that it is difficult to apply wireless power transmission to various wireless power receivers because high resonance characteristics are required.

That is, proper power transmission can be made to a plurality of wireless power receivers having the same amount of power, but in order to transmit wireless power to a plurality of wireless power receivers having different amounts of required power, adjustment of a resonance frequency may be accompanied by a complicated control algorithm. Inevitably, in a situation where the distance between the wireless power transmitter and the wireless power receiver is irregular, there is a problem that power transmission is not smoothly performed.

Therefore, in the technical field to which the present invention belongs, there is an urgent need for a technology for a wireless power transmission / reception system using a magnetic resonance method that can be easily applied to various wireless power receivers.

The present invention has been made to solve the problems of the prior art as described above, in a wireless power transmission and reception system using a magnetic resonance method, a high-power wireless power receiving device to retransmit surplus power to a low power wireless power receiving device The present invention provides a wireless power transmission / reception system capable of multi-charging that can be easily applied to a plurality of wireless power reception devices while various wireless power transmission / reception are provided.

According to an aspect of the present invention, a multi-charging wireless power transmission / reception system according to the present invention generates a first wireless power signal having a resonance frequency of a first band when commercial power is supplied, and generates the generated first wireless power signal. Wireless power transmission device for transmitting to the outside by the magnetic resonance method; The first wireless power signal is received by a magnetic resonance method and converted into the used power, and the surplus wireless power signal which is not converted into the used power is converted into a second wireless power signal having a resonance frequency of the second band by the magnetic resonance method. A first wireless power receiver for retransmitting to the outside; And at least one second wireless power receiver for receiving the second wireless power signal by using a magnetic resonance method and converting the second wireless power signal into used power.

Preferably, the first wireless power receiver is provided in a wireless power receiver that requires a relatively higher power consumption than the second wireless power receiver.

Preferably, the resonant frequency of the first band of the first wireless power signal has a frequency lower than the resonant frequency of the second band of the second wireless power signal.

Preferably, the wireless power transmission device, a power supply for receiving the AC power of the commercial power source is converted into direct current and supplied, and the first wireless power having the power supplied from the power supply having a resonance frequency of the first band A wireless power signal generator for generating a signal, a wireless power signal transmitter for wirelessly transmitting a first wireless power signal generated from the wireless power signal generator by a magnetic resonance method through a power transmission antenna, and the wireless power signal A wireless power signal transmitter for wirelessly transmitting the first wireless power signal generated from the generator to an external space through a power transmission antenna, a wireless power detector for detecting and outputting a required amount of power of the first wireless power receiver; The wireless power signal corresponding to the required amount of power detected by the wireless power detector may be transmitted. Group comprises a wireless power signal generator and a wireless signal transmission power control unit for controlling parts.

Preferably, the power transmission antenna of the wireless power transmission device is composed of a resonant coil for radiating a wireless power signal to the outside.

Preferably, the first wireless power receiver, the wireless power signal receiving unit for wirelessly receiving the first wireless power signal wirelessly transmitted from the wireless power transmission apparatus through a power receiving antenna in a magnetic resonance method, and the wireless power signal A power converter converting the first wireless power signal received from the receiver into used power and supplying the power to the power unit of the wireless power receiver; a power detector configured to detect and output a required power amount of the wireless power receiver; and the wireless power signal. A wireless power signal distribution unit provided between a receiving unit and the power conversion unit to output a wireless power signal necessary for converting the used power to the power conversion unit, and to separate and output a surplus wireless power signal which is not converted into the used power; Receiving the surplus wireless power signal output from the wireless power signal distribution unit A wireless power signal converting unit for converting into a second wireless power signal having a resonant frequency of two bands, and wirelessly transmitting the second wireless power signal converted from the wireless power signal converting unit by a magnetic resonance method through a power transmission antenna A wireless power signal transmitter, a wireless power signal detector for detecting and outputting a required power amount and a resonance frequency of the at least one second wireless power receiver, and the wireless power signal distributor according to the required power amount detected by the power detector. And a power converter to control the amount of power required to supply the wireless power receiver, and to transmit a second amount of power signal corresponding to the required amount of power detected by the wireless power signal detector and the resonance frequency. Including a control unit for controlling the conversion unit and the wireless power signal transmission unit Eojinda.

Preferably, the power reception antenna of the first wireless power receiver is formed of a resonant coil for receiving a wireless power signal from the outside.

Preferably, the power transmission antenna of the first wireless power receiver includes a resonant coil for radiating a wireless power signal to the outside, and a power supply for receiving a second wireless power signal from the wireless power signal transmitter to guide the resonant coil. It consists of a loop.

Preferably, the at least one second wireless power receiver includes: a wireless power signal receiver wirelessly receiving a second wireless power signal wirelessly transmitted from the first wireless power receiver by a magnetic resonance method through a power receiving antenna; And a power converting unit converting the second wireless power signal received from the wireless power signal receiving unit into used power and supplying the power to the power supply unit of the wireless power receiving device.

Preferably, the power receiving antenna of the at least one second wireless power receiver includes a resonant coil for receiving a wireless power signal from the outside, and a power supply for supplying a second wireless power signal from the resonant coil to the wireless power signal receiving unit. It consists of a loop.

Preferably, the space between the first wireless power receiver and the second wireless power receiver is further provided with at least one relay coil unit for relaying the second wireless power signal transmitted from the first wireless power receiver.

Preferably, the at least one relay coil unit is formed of a resonant coil resonating at the same resonant frequency of the second band as the second wireless power signal.

The technical problem may be achieved by a wireless power transmission / reception apparatus capable of wirelessly receiving power and retransmitting power. In the configuration, the first wireless power signal having a resonance frequency of a first band wirelessly transmitted from the outside may be obtained. A wireless power signal receiver wirelessly receiving the magnetic resonance method through a power receiving antenna; A power converter converting the first wireless power signal received from the wireless power signal receiver into used power and supplying the power to the power supply unit of the wireless power receiver; The wireless power signal is provided between the wireless power signal receiving unit and the power conversion unit to output a wireless power signal for use power conversion to the power conversion unit, and separates and outputs a redundant wireless power signal that is not converted into use power. Allocation; A wireless power signal conversion unit receiving the surplus wireless power signal output from the wireless power signal distribution unit and converting the surplus wireless power signal into a second wireless power signal having a resonance frequency of a second band; A wireless power signal transmitter wirelessly transmitting a second wireless power signal converted from the wireless power signal converter through a power transmission antenna in a magnetic resonance manner; A wireless power signal detector configured to detect and output a required power amount and a resonance frequency of at least one external wireless power receiver; And controlling the wireless power signal distribution unit and the power conversion unit to supply the required power amount to the wireless power receiver by controlling the wireless power signal distribution unit and the power conversion unit according to the required power amount detected by the power detection unit. And a controller configured to control the wireless power signal converter and the wireless power signal transmitter so that the second wireless power signal corresponding to the wireless power signal may be transmitted.

According to the present invention, in the wireless power transmission and reception system using the magnetic resonance method, in the wireless power transmission and reception system using the magnetic resonance method, the high power wireless power receiving device to retransmit the surplus power to the low power wireless power receiving device By providing a configuration, a wireless power transmission / reception system capable of multi-charging which enables wireless power transmission and reception to a variety of wireless power reception devices easily and conveniently can be provided. In addition, by installing the wireless power transmission device embedded in a building such as a house or a shared house, it is possible to increase the space utilization of the interior of the building. In addition, a relay coil capable of relaying wireless power transmission may be added to transmit wireless power to a wireless power receiving device at a greater distance.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate preferred embodiments of the invention and, together with the description, And shall not be interpreted.
1 is a view schematically showing a wireless power transmission and reception system capable of multi-charging according to a preferred embodiment of the present invention.
2 is a block diagram showing the configuration of a wireless power transmission and reception system capable of multi-charging according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a view schematically showing a multi-charging wireless power transmission and reception system according to a preferred embodiment of the present invention, Figure 2 shows a configuration of a multi-charging wireless power transmission and reception system according to a preferred embodiment of the present invention It is a block diagram.

1 and 2, the wireless power transmission and reception system capable of multi-charging according to the present invention is configured to be embedded in the wall (1) of the building wireless power transmission apparatus for transmitting wireless power to the outside in a magnetic resonance method ( 100 and the wireless power transmitter 100 are disposed in close proximity to the wireless power transmitter 100 to receive the wireless power by the magnetic resonance method, and use the wireless power and the remaining wireless power again to the magnetic resonance method The first wireless power receiver 200 and the first wireless power receiver 200 to be transmitted to the outside by a predetermined distance away from the first wireless power receiver 200 and the wireless power by the magnetic resonance method It is configured to include at least one or more second wireless power receiver 300 receiving the transmission. In this case, the wireless power transmitted from the first wireless power receiver 200 may be relayed in a space between the first wireless power receiver 200 and the second wireless power receiver 300 to a longer distance. At least one relay coil unit 400 may be further configured to allow power to be transmitted.

Here, the first wireless power receiver 200 and the second wireless power receiver 300 may receive wireless power in a common magnetic resonance manner, and use the received wireless power as a driving power source or use a battery. It is a device that can be charged. In this case, the first wireless power receiver 200 is applied to a wireless power receiver having a relatively higher power than a conventional portable electronic device such as a wall-mounted TV, an audio, a desk computer, and the second wireless power receiver 300. The present invention is applied to a low power wireless power receiver such as a portable electronic device or a small home appliance, in which a battery is detected and charged or discharged and used as a driving power source.

The wireless power transmitter 100 is a device configured to transmit wireless power to the first wireless power receiver 200 having a relatively higher power than a conventional portable electronic device such as a wall-mounted TV, audio, or desk computer. The first wireless power receiver 200 is configured to be arranged in close proximity. The wireless power transmission apparatus 100 may be configured to be embedded in the wall (1) of the building, attached to the wall (1), or may be configured in the form of a stand. However, the present invention is not limited by the configuration form of the wireless power transmission apparatus 100.

Specifically, as shown in FIG. 2, the wireless power transmitter 100 includes a power transmission antenna 110, a power supply unit 120, a wireless power signal generator 131, and a wireless power signal transmitter 132. ), The wireless power signal detector 133, and the controller 140.

The power supply unit 120 receives AC power, which is commercial power, converts it into direct current, and supplies the same to the wireless power signal generator 131.

The wireless power signal generator 131 generates a first wireless power signal having a resonance frequency of a first band from the DC power supplied from the power supply unit 120 so that wireless power can be transmitted by magnetic resonance.

The wireless power signal transmitter 132 is a wireless power signal generation side and the power transmission antenna so that the first wireless power signal generated from the wireless power signal generator 131 can be transmitted to the outside in an optimal state. The impedance between the 110 is adjusted to transmit the first wireless power signal to the power transmission antenna 110.

The wireless power signal detector 133 detects and outputs a required amount of power of the first wireless power receiver 200 that receives wireless power.

The controller 140 controls the overall components of the wireless power transmission apparatus 100, and in particular, the wireless power signal so that the wireless power signal corresponding to the required amount of power detected by the wireless power signal detector 133 can be transmitted. The generator 131 and the wireless power signal transmitter 132 are controlled.

The wireless power signal transmission apparatus 100 according to the present invention uses a relatively low frequency as the resonant frequency of the first band of the first wireless power signal so as to reduce harmful effects of the frequency around the device while transmitting wireless power of high power. It is desirable to have. In addition, the first wireless power receiver 200 receiving the wireless power from the wireless power transmitter 100 may be disposed in close proximity to the wireless power transmitter 100, in this case, the wireless power signal transmission. Since the device 100 and the first wireless power receiver 200 are located in the near field, even if the configuration of the power transmission antenna 110 is composed only of the resonant coil excluding the feed loop, wireless power can be smoothly performed. The transmission efficiency of the wireless power can be increased.

As described above, the first wireless power receiver 200 is applied to a wireless power receiver having a relatively higher power than a conventional portable electronic device such as a wall-mounted TV, an audio, a desk computer, and the wireless power transmitter 100. And the first wireless power signal wirelessly transmitted from the wireless power transmitter 100 is converted into a used power source by using a magnetic resonance method and provided to the wireless power receiver.

In the present invention, the first wireless power receiver 200 receives a wireless power signal in a magnetic resonance manner, converts it into used power, provides the wireless power receiver, and provides surplus wireless power to the wireless power receiver. It is a feature of the invention that it is configured to retransmit the power signal back to the outside by magnetic resonance.

In detail, as illustrated in FIG. 2, the first wireless power receiver 200 may include a wireless power signal receiver 221, a power converter 222, a power detector 223, and a wireless power signal distributor 231. ), A wireless power signal converter 232, a wireless power signal transmitter 233, a wireless power signal detector 234, and a controller 240.

The first wireless power receiver 200 basically transmits the first wireless power signal wirelessly transmitted from the wireless power transmitter 100 by the wireless power signal receiver 221 through the power reception antenna 210. The wireless reception is performed in a resonance manner, and the first wireless power signal received by the power conversion unit 222 is converted into the used power corresponding to the required amount of power of the wireless power receiver and supplied to the power unit 230 of the wireless power receiver. .

The first wireless power receiver 200 according to the present invention includes the power detector 223, the wireless power signal distributor 231, and the wireless power together with the configuration of the wireless power signal receiver 221 and the power converter 222. The signal converter 232, the wireless power signal transmitter 233, the wireless power signal detector 234, and the controller 240 are configured to retransmit the surplus wireless power signal.

The power detector 222 detects and outputs an amount of power required by the power supply unit 230 of the wireless power receiver. The output required power amount detection information is applied to the controller 240 to be described later.

The wireless power signal distribution unit 231 is provided between the wireless power signal receiving unit 221 and the power conversion unit 222 and is required to convert the used power corresponding to the required power amount detected by the power detection unit 222. Outputs the first wireless power signal to the power converter 222 side, and separates the surplus wireless power signal remaining without being converted into the use power to output to the wireless power signal converter 232 side.

The wireless power signal converter 232 resonates the surplus wireless power signal to a second band so that wireless power transmission can be performed by magnetic resonance of the surplus wireless power signal output from the wireless power signal distribution unit 231. Convert to a second wireless power signal having a frequency.

Here, the resonant frequency of the second band of the second wireless power signal preferably has a higher frequency than the resonant frequency of the first band of the first wireless power signal. This is because, in the case of the first wireless power receiver 200, it is advantageous to use a wireless power signal having a low frequency resonant frequency in order to reduce harmfulness and increase transmission efficiency of wireless power because high power wireless power is transmitted. to be. On the other hand, since the second wireless power receiver 300 is applied to a wireless power receiver that uses low power wireless power, such as a portable electronic device or a small home appliance, as described above, it is relatively harmful by frequency. This is because it is advantageous to use a wireless power signal having a high frequency resonant frequency in order to reduce the size of the power receiving antenna receiving the wireless power as well as the small size of the applied device.

The wireless power signal transmitter 233 is a wireless power signal providing side and a power transmission antenna 220 so that the second wireless power signal converted from the wireless power signal converter 232 can be transmitted to the outside in an optimal state. The second wireless power signal is transmitted to the power transmission antenna 250 by adjusting the impedance between the terminals. Here, the power transmission antenna 250 receives the second wireless power signal from the resonant coil 252 and the wireless power signal transmitter 233 to radiate a wireless power signal to the outside of the resonant coil 252. It consists of a feed loop 251 leading to.

The wireless power signal detector 234 detects and outputs a required power amount and a resonant frequency of the at least one second wireless power receiver 300 that receives wireless power.

The controller 240 controls the overall components of the first wireless power receiver 200. In particular, the control unit 240 and the wireless power signal distribution unit 231 according to the amount of power required by the power supply unit 230 of the wireless power receiving device detected by the power detection unit 223 in the reception of the wireless power signal. The power conversion unit 222 is controlled to supply power to the power supply 230 of the wireless power receiver. In addition, the control unit 240 in the retransmission of the wireless power signal, the wireless power signal conversion unit so that the second wireless power signal corresponding to the required power amount and the resonance frequency detected by the wireless power signal detector 234 can be transmitted. 232 and the wireless power signal transmitter 233 are controlled.

In addition, the controller 240 monitors the required power amount and the resonant frequency of the at least one or more second wireless power receivers 300 through the wireless power signal detector 234 to at least one or more second wireless power receivers. The wireless power transmission may be performed to adjust the power level or the resonant frequency of the second wireless power signal so that an appropriate wireless power may be transmitted to the 300.

In addition, when there is a second wireless power receiver 300 in which the required amount of power and the resonance frequency of the second wireless power receiver 300 are different from each other, the controller 240 may use different power requirements and resonance frequencies through time division control. It may be controlled to be converted into a second wireless power signal suitable for the second wireless power receiver 300 that requires a transmission.

The first wireless power receiver 200 according to the present invention does not constitute a separate wireless power signal generator for generating a wireless power signal used for wireless power transmission by magnetic resonance, and the wireless power signal converter 232. By converting the surplus wireless power signal remaining in the use power and the remaining wireless power signal to the second wireless power signal and configured to be retransmitted, it is possible to simplify the configuration circuit and increase the efficiency of using the wireless power.

In this configuration, since the wireless power received by the first wireless power receiver 200 corresponds to high power, the amount of wireless power transmitted by the wireless power transmitter 100 is determined. As it increases, the transmission efficiency of the wireless power can be increased, and in this case, the first wireless power receiver 200 generates surplus wireless power that cannot be used because wireless power is received in a greater amount than the wireless power used. In this case, by configuring the surplus wireless power to be retransmitted again, it is possible to satisfy both the transmission efficiency and the use efficiency of the wireless power.

As described above, the second wireless power receiver 300 is applied to a low power wireless power receiver that uses a battery, such as a portable electronic device or a small home appliance, that is charged and discharged and used as a driving power. Located at a distance from the first wireless power receiver 200 and receiving a second wireless power signal wirelessly transmitted from the first wireless power receiver 200 by a magnetic resonance method to convert the power to use power to receive wireless power To the appliance.

In detail, as illustrated in FIG. 2, the second wireless power receiver 300 includes a wireless power signal receiver 321 and a power converter 322.

The wireless power signal receiver 321 wirelessly receives the second wireless power signal wirelessly transmitted from the first wireless power receiver 200 through a power reception antenna 310 in a magnetic resonance manner, thereby converting the power to the power converter. 322).

The power converter 322 converts the second wireless power signal supplied from the wireless power signal receiver 321 into used power corresponding to the required amount of power of the wireless power receiver to the power unit 330 of the wireless power receiver. Supply.

Here, the power receiving antenna 310 is a resonant coil 312 for receiving the second wireless power signal transmitted from the first wireless power receiver 200, and the second wireless power from the resonant coil 312 The power supply loop 311 supplies a signal to the wireless power signal receiver 321.

Meanwhile, in the wireless power transmitter and receiver capable of multicharging according to the present invention, the first wireless power receiver 200 is located in a space between the first wireless power receiver 200 and the second wireless power receiver 300. At least one relay coil unit 400 for relaying the second wireless power signal transmitted from may be further provided.

The at least one relay coil unit 400 includes a resonant coil 410 that resonates at the same resonant frequency as that of the second wireless power signal. That is, the resonant coil 410 of the relay coil unit 400 resonates with the power transmitting antenna 220 of the first wireless power receiver 200, and resonates between adjacent relay coil units 400. By resonating with the coils 410, the transmission distance of the second wireless power signal can be further extended.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

100: wireless power transmitter 200: first wireless power receiver
300: second wireless power receiver 400: relay coil unit

Claims (16)

A wireless power transmitter generating a first wireless power signal having a resonance frequency of a first band when commercial power is supplied, and transmitting the generated first wireless power signal to the outside by magnetic resonance;
The first wireless power signal is received by a magnetic resonance method and converted into the used power, and the surplus wireless power signal which is not converted into the used power is converted into a second wireless power signal having a resonance frequency of the second band by the magnetic resonance method. A first wireless power receiver for retransmitting to the outside; And
And at least one second wireless power receiver for receiving the second wireless power signal by using a magnetic resonance method and converting the second wireless power signal into a used power. The method of claim 1,
The first wireless power receiver is a multi-charge wireless power transmission and reception system, characterized in that provided in the wireless power receiving device that requires a relatively high power consumption than the second wireless power receiver. The method of claim 1,
And a resonant frequency of the first band of the first wireless power signal has a frequency lower than that of the second band of the second wireless power signal. The method of claim 1,
The wireless power transmission apparatus includes:
A power supply unit which receives an AC power of the commercial power and converts the DC power into a direct current;
A wireless power signal generator configured to generate a first wireless power signal having a resonance frequency of the first band from the power supplied from the power supply unit;
A wireless power signal transmitter for wirelessly transmitting the first wireless power signal generated from the wireless power signal generator through a power transmission antenna in a magnetic resonance manner;
A wireless power signal transmitter for wirelessly transmitting the first wireless power signal generated from the wireless power signal generator to an external space through a power transmission antenna;
A wireless power detector configured to detect and output a required amount of power of the first wireless power receiver;
And a controller for controlling the wireless power signal generator and the wireless power signal transmitter so that the wireless power signal corresponding to the required amount of power detected by the wireless power detector is transmitted. system. 5. The method of claim 4,
The power transmission antenna of the wireless power transmission device is a multi-charge wireless power transmission and reception system, characterized in that consisting of a resonant coil for radiating a wireless power signal to the outside. The method of claim 1,
The first wireless power receiver,
A wireless power signal receiver wirelessly receiving the first wireless power signal wirelessly transmitted by the wireless power transmitter in a magnetic resonance manner through a power receiving antenna;
A power converter converting the first wireless power signal received from the wireless power signal receiver into used power and supplying the power to the power unit of the wireless power receiver;
A power detector detecting and outputting a required amount of power of the wireless power receiver;
The wireless power signal is provided between the wireless power signal receiving unit and the power conversion unit to output a wireless power signal for use power conversion to the power conversion unit, and separates and outputs a redundant wireless power signal that is not converted into use power. Allocation,
A wireless power signal conversion unit receiving the surplus wireless power signal output from the wireless power signal distribution unit and converting the surplus wireless power signal into a second wireless power signal having a resonance frequency of the second band;
A wireless power signal transmitter for wirelessly transmitting the second wireless power signal converted from the wireless power signal converter by a magnetic resonance method through a power transmission antenna;
A wireless power signal detector for detecting and outputting a required power amount and a resonance frequency of the at least one second wireless power receiver;
The wireless power signal distribution unit and the power conversion unit are controlled according to the amount of power detected by the power detection unit to control the amount of power supplied to the wireless power receiver, and to the required power amount and resonance frequency detected by the wireless power signal detection unit. And a controller for controlling the wireless power signal converter and the wireless power signal transmitter so that a corresponding second wireless power signal can be transmitted. The method according to claim 6,
The power receiving antenna of the first wireless power receiver is a multi-charge wireless power transmission and reception system, characterized in that consisting of a resonant coil for receiving a wireless power signal from the outside. The method according to claim 6,
The power transmission antenna of the first wireless power receiver includes a resonant coil for radiating a wireless power signal to the outside, and a feed loop for receiving a second wireless power signal from the wireless power signal transmitter to guide the resonant coil. Wireless power transmission and reception system characterized in that the multi-charging possible. The method of claim 1,
The at least one second wireless power receiver,
A wireless power signal receiver wirelessly receiving a second wireless power signal wirelessly transmitted by the first wireless power receiver through a power reception antenna in a magnetic resonance manner;
And a power converter converting the second wireless power signal received from the wireless power signal receiver into the used power and supplying the power to the power unit of the wireless power receiver. 10. The method of claim 9,
The power receiving antenna of the at least one second wireless power receiver includes a resonant coil for receiving a wireless power signal from the outside, and a feeding loop for supplying a second wireless power signal from the resonant coil to the wireless power signal receiving unit. Wireless power transmission and reception system characterized in that the multi-charging possible. The method of claim 1,
The space between the first wireless power receiver and the second wireless power receiver is further provided with at least one relay coil unit for relaying the second wireless power signal transmitted from the first wireless power receiver. Wireless power transmission and reception system capable of multi-charging. The method of claim 11,
The at least one relay coil unit is a multi-charge wireless power transmission and reception system, characterized in that consisting of a resonant coil resonating at the same resonance frequency of the second band and the second wireless power signal. In the wireless power transmission and reception apparatus capable of receiving power and retransmitting wirelessly,
A wireless power signal receiving unit wirelessly receiving a first wireless power signal having a resonance frequency of a first band wirelessly transmitted from the outside in a magnetic resonance manner through a power receiving antenna;
A power converter converting the first wireless power signal received from the wireless power signal receiver into used power and supplying the power to the power supply unit of the wireless power receiver;
The wireless power signal is provided between the wireless power signal receiving unit and the power conversion unit to output a wireless power signal for use power conversion to the power conversion unit, and separates and outputs a redundant wireless power signal that is not converted into use power. Allocation;
A wireless power signal conversion unit receiving the surplus wireless power signal output from the wireless power signal distribution unit and converting the surplus wireless power signal into a second wireless power signal having a resonance frequency of a second band;
A wireless power signal transmitter wirelessly transmitting a second wireless power signal converted from the wireless power signal converter through a power transmission antenna in a magnetic resonance manner;
A wireless power signal detector configured to detect and output a required power amount and a resonance frequency of at least one external wireless power receiver; And
The wireless power signal distribution unit and the power conversion unit are controlled according to the amount of power detected by the power detection unit to control the amount of power supplied to the wireless power receiver, and to the required power amount and resonance frequency detected by the wireless power signal detection unit. And a controller for controlling the wireless power signal converter and the wireless power signal transmitter so that a corresponding second wireless power signal can be transmitted. The method of claim 13,
And a resonant frequency of a first band of the first wireless power signal has a frequency lower than that of a second band of the second wireless power signal. The method of claim 13,
The power receiving antenna is a wireless power transceiver, characterized in that consisting of a resonant coil for receiving a wireless power signal from the outside. The method of claim 13,
The power transmission antenna includes a resonant coil for radiating a wireless power signal to the outside, and a power supply coil receiving a second wireless power signal from the wireless power signal transmission unit and inducing the resonant coil. Device.

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